/* * TLS ASIO Stream Wrapper * (C) 2018-2019 Jack Lloyd * 2018-2019 Hannes Rantzsch, Tim Oesterreich, Rene Meusel * * Botan is released under the Simplified BSD License (see license.txt) */ #include "tests.h" #if defined(BOTAN_HAS_TLS) && defined(BOTAN_HAS_BOOST_ASIO) #include #if BOOST_VERSION >= 106600 #include #include #include #include namespace Botan_Tests { namespace net = boost::asio; using error_code = boost::system::error_code; constexpr uint8_t TEST_DATA[] = "The story so far: In the beginning the Universe was created. " "This has made a lot of people very angry and been widely regarded as a bad move."; constexpr std::size_t TEST_DATA_SIZE = 142; static_assert(sizeof(TEST_DATA) == TEST_DATA_SIZE, "size of TEST_DATA must match TEST_DATA_SIZE"); /** * Mocked Botan::TLS::Channel. Pretends to perform TLS operations and triggers appropriate callbacks in StreamCore. */ class MockChannel { public: MockChannel(Botan::TLS::Callbacks& core) : m_callbacks(core) , m_bytes_till_complete_record(TEST_DATA_SIZE) , m_active(false) {} public: std::size_t received_data(const uint8_t[], std::size_t buf_size) { if(m_bytes_till_complete_record <= buf_size) { m_callbacks.tls_record_received(0, TEST_DATA, TEST_DATA_SIZE); m_active = true; // claim to be active once a full record has been received (for handshake test) return 0; } m_bytes_till_complete_record -= buf_size; return m_bytes_till_complete_record; } void send(const uint8_t buf[], std::size_t buf_size) { m_callbacks.tls_emit_data(buf, buf_size); } bool is_active() { return m_active; } protected: Botan::TLS::Callbacks& m_callbacks; std::size_t m_bytes_till_complete_record; // number of bytes still to read before tls record is completed bool m_active; Botan::TLS::Session_Manager_Noop m_session_manager; Botan::Null_RNG m_rng; Botan::TLS::Default_Policy m_policy; }; class ThrowingMockChannel : public MockChannel { public: static boost::system::error_code expected_ec() { return Botan::TLS::Alert::UNEXPECTED_MESSAGE; } ThrowingMockChannel(Botan::TLS::Callbacks& core) : MockChannel(core) { } std::size_t received_data(const uint8_t[], std::size_t) { throw Botan::TLS::Unexpected_Message("test_error"); } void send(const uint8_t[], std::size_t) { throw Botan::TLS::Unexpected_Message("test_error"); } }; using TestStream = boost::beast::test::stream; using FailCount = boost::beast::test::fail_count; class AsioStream : public Botan::TLS::Stream { public: template AsioStream(Botan::TLS::Context& context, Args&& ... args) : Stream(context, args...) { m_channel = std::unique_ptr(new MockChannel(m_core)); } virtual ~AsioStream() = default; }; class ThrowingAsioStream : public Botan::TLS::Stream { public: template ThrowingAsioStream(Botan::TLS::Context& context, Args&& ... args) : Stream(context, args...) { m_channel = std::unique_ptr(new ThrowingMockChannel(m_core)); } virtual ~ThrowingAsioStream() = default; }; /** * Synchronous tests for Botan::Stream. * * This test validates the asynchronous behavior Botan::Stream, including its utility classes StreamCore and Async_*_Op. * The stream's channel, i.e. TLS_Client or TLS_Server, is mocked and pretends to perform TLS operations (noop) and * provides the test data to the stream. * The underlying network socket, claiming it read / wrote a number of bytes. */ class Asio_Stream_Tests final : public Test { // use memcmp to check if the data in a is a prefix of the data in b bool contains(const void* a, const void* b, const std::size_t size) { return memcmp(a, b, size) == 0; } boost::string_view test_data() const { return boost::string_view((const char*)TEST_DATA, TEST_DATA_SIZE); } void test_sync_handshake(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); ssl.handshake(Botan::TLS::CLIENT); Test::Result result("sync TLS handshake"); result.test_eq("feeds data into channel until active", ssl.native_handle()->is_active(), true); results.push_back(result); } void test_sync_handshake_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); ssl.next_layer().connect(remote); // mimic handshake initialization ssl.native_handle()->send(TEST_DATA, TEST_DATA_SIZE); error_code ec; ssl.handshake(Botan::TLS::CLIENT, ec); Test::Result result("sync TLS handshake error"); result.test_eq("does not activate channel", ssl.native_handle()->is_active(), false); result.confirm("propagates error code", ec == net::error::eof); results.push_back(result); } void test_sync_handshake_throw(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc, test_data()); ssl.next_layer().connect(remote); error_code ec; ssl.handshake(Botan::TLS::CLIENT, ec); Test::Result result("sync TLS handshake error"); result.test_eq("does not activate channel", ssl.native_handle()->is_active(), false); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); results.push_back(result); } void test_async_handshake(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); ssl.next_layer().connect(remote); // mimic handshake initialization ssl.native_handle()->send(TEST_DATA, TEST_DATA_SIZE); Test::Result result("async TLS handshake"); auto handler = [&](const error_code&) { result.confirm("reads from socket", ssl.next_layer().nread() > 0); result.confirm("writes from socket", ssl.next_layer().nwrite() > 0); result.test_eq("feeds data into channel until active", ssl.native_handle()->is_active(), true); }; ssl.async_handshake(Botan::TLS::CLIENT, handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_async_handshake_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); ssl.next_layer().connect(remote); // mimic handshake initialization ssl.native_handle()->send(TEST_DATA, TEST_DATA_SIZE); Test::Result result("async TLS handshake error"); auto handler = [&](const error_code &ec) { result.test_eq("does not activate channel", ssl.native_handle()->is_active(), false); result.confirm("propagates error code", ec == net::error::eof); }; ssl.async_handshake(Botan::TLS::CLIENT, handler); ioc.run(); results.push_back(result); } void test_async_handshake_throw(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc, test_data()); ssl.next_layer().connect(remote); Test::Result result("async TLS handshake throw"); auto handler = [&](const error_code &ec) { result.test_eq("does not activate channel", ssl.native_handle()->is_active(), false); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); }; ssl.async_handshake(Botan::TLS::CLIENT, handler); ioc.run(); results.push_back(result); } void test_sync_read_some_success(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); const std::size_t buf_size = 128; uint8_t buf[buf_size]; error_code ec; auto bytes_transferred = net::read(ssl, net::mutable_buffer(buf, sizeof(buf)), ec); Test::Result result("sync read_some success"); result.confirm("reads the correct data", contains(buf, TEST_DATA, buf_size)); result.test_eq("reads the correct amount of data", bytes_transferred, buf_size); result.confirm("does not report an error", !ec); results.push_back(result); } void test_sync_read_some_buffer_sequence(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); error_code ec; std::vector data; uint8_t buf1[TEST_DATA_SIZE/2]; uint8_t buf2[TEST_DATA_SIZE/2]; data.emplace_back(net::mutable_buffer(buf1, TEST_DATA_SIZE/2)); data.emplace_back(net::mutable_buffer(buf2, TEST_DATA_SIZE/2)); auto bytes_transferred = net::read(ssl, data, ec); Test::Result result("sync read_some buffer sequence"); result.confirm("reads the correct data", contains(buf1, TEST_DATA, TEST_DATA_SIZE/2) && contains(buf2, TEST_DATA+TEST_DATA_SIZE/2, TEST_DATA_SIZE/2)); result.test_eq("reads the correct amount of data", bytes_transferred, TEST_DATA_SIZE); result.confirm("does not report an error", !ec); results.push_back(result); } void test_sync_read_some_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); ssl.next_layer().connect(remote); uint8_t buf[128]; error_code ec; auto bytes_transferred = net::read(ssl, net::mutable_buffer(buf, sizeof(buf)), ec); Test::Result result("sync read_some error"); result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == net::error::eof); results.push_back(result); } void test_sync_read_some_throw(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc, test_data()); ssl.next_layer().connect(remote); uint8_t buf[128]; error_code ec; auto bytes_transferred = net::read(ssl, net::mutable_buffer(buf, sizeof(buf)), ec); Test::Result result("sync read_some throw"); result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); results.push_back(result); } void test_sync_read_zero_buffer(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); const std::size_t buf_size = 128; uint8_t buf[buf_size]; error_code ec; auto bytes_transferred = net::read(ssl, net::mutable_buffer(buf, std::size_t(0)), ec); Test::Result result("sync read_some into zero-size buffer"); result.test_eq("reads the correct amount of data", bytes_transferred, 0); // This relies on an implementation detail of TestStream: A "real" asio::tcp::stream // would block here. TestStream sets error_code::eof. result.confirm("does not report an error", !ec); results.push_back(result); } void test_async_read_some_success(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); uint8_t data[TEST_DATA_SIZE]; Test::Result result("async read_some success"); auto read_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.confirm("reads the correct data", contains(data, TEST_DATA, TEST_DATA_SIZE)); result.test_eq("reads the correct amount of data", bytes_transferred, TEST_DATA_SIZE); result.confirm("does not report an error", !ec); }; net::mutable_buffer buf {data, TEST_DATA_SIZE}; net::async_read(ssl, buf, read_handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_async_read_some_buffer_sequence(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, test_data()); std::vector data; uint8_t buf1[TEST_DATA_SIZE/2]; uint8_t buf2[TEST_DATA_SIZE/2]; data.emplace_back(net::mutable_buffer(buf1, TEST_DATA_SIZE/2)); data.emplace_back(net::mutable_buffer(buf2, TEST_DATA_SIZE/2)); Test::Result result("async read_some buffer sequence"); auto read_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.confirm("reads the correct data", contains(buf1, TEST_DATA, TEST_DATA_SIZE/2) && contains(buf2, TEST_DATA+TEST_DATA_SIZE/2, TEST_DATA_SIZE/2)); result.test_eq("reads the correct amount of data", bytes_transferred, TEST_DATA_SIZE); result.confirm("does not report an error", !ec); }; net::async_read(ssl, data, read_handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_async_read_some_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); uint8_t data[TEST_DATA_SIZE]; Test::Result result("async read_some error"); auto read_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == net::error::eof); }; net::mutable_buffer buf {data, TEST_DATA_SIZE}; net::async_read(ssl, buf, read_handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_async_read_some_throw(std::vector& results) { net::io_context ioc; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc, test_data()); uint8_t data[TEST_DATA_SIZE]; Test::Result result("async read_some throw"); auto read_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); }; net::mutable_buffer buf {data, TEST_DATA_SIZE}; net::async_read(ssl, buf, read_handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_async_read_zero_buffer(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); uint8_t data[TEST_DATA_SIZE]; Test::Result result("async read_some into zero-size buffer"); auto read_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.test_eq("reads the correct amount of data", bytes_transferred, 0); // This relies on an implementation detail of TestStream: A "real" asio::tcp::stream // would block here. TestStream sets error_code::eof. result.confirm("does not report an error", !ec); }; net::mutable_buffer buf {data, std::size_t(0)}; net::async_read(ssl, buf, read_handler); ssl.next_layer().close_remote(); ioc.run(); results.push_back(result); } void test_sync_write_some_success(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); error_code ec; auto bytes_transferred = net::write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), ec); Test::Result result("sync write_some success"); result.confirm("writes the correct data", remote.str() == test_data()); result.test_eq("writes the correct amount of data", bytes_transferred, TEST_DATA_SIZE); result.confirm("does not report an error", !ec); results.push_back(result); } void test_sync_write_some_buffer_sequence(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); error_code ec; // this should be Botan::TLS::MAX_PLAINTEXT_SIZE + 1024 + 1 std::array random_data; random_data.fill('4'); // chosen by fair dice roll random_data.back() = '5'; std::vector data; data.emplace_back(net::const_buffer(random_data.data(), 1)); for(std::size_t i = 1; i < random_data.size(); i += 1024) { data.emplace_back(net::const_buffer(random_data.data() + i, 1024)); } auto bytes_transferred = net::write(ssl, data, ec); Test::Result result("sync write_some buffer sequence"); result.confirm("[precondition] MAX_PLAINTEXT_SIZE is still smaller than random_data.size()", Botan::TLS::MAX_PLAINTEXT_SIZE < random_data.size()); result.confirm("writes the correct data", contains(remote.buffer().data().data(), random_data.data(), random_data.size())); result.test_eq("writes the correct amount of data", bytes_transferred, random_data.size()); result.test_eq("correct number of writes", ssl.next_layer().nwrite(), 2); result.confirm("does not report an error", !ec); results.push_back(result); } void test_sync_write_some_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); ssl.next_layer().connect(remote); error_code ec; auto bytes_transferred = net::write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), ec); Test::Result result("sync write_some error"); result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == net::error::eof); results.push_back(result); } void test_sync_write_some_throw(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); error_code ec; auto bytes_transferred = net::write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), ec); Test::Result result("sync write_some throw"); result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); results.push_back(result); } void test_async_write_some_success(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); Test::Result result("async write_some success"); auto write_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.confirm("writes the correct data", remote.str() == test_data()); result.test_eq("writes the correct amount of data", bytes_transferred, TEST_DATA_SIZE); result.confirm("does not report an error", !ec); }; net::async_write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), write_handler); ioc.run(); results.push_back(result); } void test_async_write_some_buffer_sequence(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); // this should be Botan::TLS::MAX_PLAINTEXT_SIZE + 1024 + 1 std::array random_data; random_data.fill('4'); // chosen by fair dice roll random_data.back() = '5'; std::vector src; src.emplace_back(net::const_buffer(random_data.data(), 1)); for(std::size_t i = 1; i < random_data.size(); i += 1024) { src.emplace_back(net::const_buffer(random_data.data() + i, 1024)); } Test::Result result("async write_some buffer sequence"); result.confirm("[precondition] MAX_PLAINTEXT_SIZE is still smaller than random_data.size()", Botan::TLS::MAX_PLAINTEXT_SIZE < random_data.size()); auto write_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.confirm("writes the correct data", contains(remote.buffer().data().data(), random_data.data(), random_data.size())); result.test_eq("writes the correct amount of data", bytes_transferred, random_data.size()); result.test_eq("correct number of writes", ssl.next_layer().nwrite(), 2); result.confirm("does not report an error", !ec); }; net::async_write(ssl, src, write_handler); ioc.run(); results.push_back(result); } void test_async_write_some_error(std::vector& results) { net::io_context ioc; // fail right away FailCount fc{0, net::error::eof}; TestStream remote{ioc}; Botan::TLS::Context ctx; AsioStream ssl(ctx, ioc, fc); ssl.next_layer().connect(remote); Test::Result result("async write_some error"); auto write_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.test_eq("committed some bytes to the core", bytes_transferred, TEST_DATA_SIZE); result.confirm("propagates error code", ec == net::error::eof); }; net::async_write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), write_handler); ioc.run(); results.push_back(result); } void test_async_write_throw(std::vector& results) { net::io_context ioc; TestStream remote{ioc}; Botan::TLS::Context ctx; ThrowingAsioStream ssl(ctx, ioc); ssl.next_layer().connect(remote); Test::Result result("async write_some throw"); auto write_handler = [&](const error_code &ec, std::size_t bytes_transferred) { result.test_eq("didn't transfer anything", bytes_transferred, 0); result.confirm("propagates error code", ec == ThrowingMockChannel::expected_ec()); }; net::async_write(ssl, net::const_buffer(TEST_DATA, TEST_DATA_SIZE), write_handler); ioc.run(); results.push_back(result); } public: std::vector run() override { std::vector results; test_sync_handshake(results); test_sync_handshake_error(results); test_sync_handshake_throw(results); test_async_handshake(results); test_async_handshake_error(results); test_async_handshake_throw(results); test_sync_read_some_success(results); test_sync_read_some_buffer_sequence(results); test_sync_read_some_error(results); test_sync_read_some_throw(results); test_sync_read_zero_buffer(results); test_async_read_some_success(results); test_async_read_some_buffer_sequence(results); test_async_read_some_error(results); test_async_read_some_throw(results); test_async_read_zero_buffer(results); test_sync_write_some_success(results); test_sync_write_some_buffer_sequence(results); test_sync_write_some_error(results); test_sync_write_some_throw(results); test_async_write_some_success(results); test_async_write_some_buffer_sequence(results); test_async_write_some_error(results); test_async_write_throw(results); return results; } }; BOTAN_REGISTER_TEST("asio_stream", Asio_Stream_Tests); } // namespace Botan_Tests #endif // BOOST_VERSION #endif // BOTAN_HAS_TLS && BOTAN_HAS_BOOST_ASIO